Why is Conventional ATPG Not Sufficient for Advanced Low Power Designs?

2009 Asian Test Symposium Pub Date : 2009-11-23 DOI:10.1109/ATS.2009.80
K. Chakravadhanula, V. Chickermane, B. Keller, Patrick R. Gallagher, A. Uzzaman
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引用次数: 5

Abstract

Designs using advanced low power techniques like Multi- Supply Multi-Voltage and Power Shutoff bring with them a new set of challenges that manufacturing test must deal with carefully. These designs have low power components – isolation cells, retention flops, level shifters, power switches, etc., – that must be tested not only structurally but also addressing their behavior across multiple power modes. This paper describes the challenges in testing the key low power components and proposes novel solutions. The defective behavior of state retention logic is modeled to enable fault grading. ATPG modeling of defective behavior of isolation logic and level shifters is described for designs that support multiple supply voltages and power shutoff. The solutions are supported by experimental results on industrial designs.
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为什么传统的ATPG不足以用于先进的低功耗设计?
采用先进的低功耗技术的设计,如多电源多电压和电源关闭带来了一系列新的挑战,制造测试必须谨慎处理。这些设计具有低功耗组件-隔离单元,保持触发器,电平移位器,电源开关等-不仅必须进行结构测试,而且必须解决其在多种功率模式下的行为。本文描述了测试关键低功耗元件所面临的挑战,并提出了新的解决方案。对状态保持逻辑的缺陷行为进行建模以实现故障分级。描述了支持多电源电压和电源关闭的设计中隔离逻辑和电平移位器缺陷行为的ATPG建模。工业设计的实验结果支持了这些解决方案。
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2009 Asian Test Symposium
2009 Asian Test Symposium
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